BACKGROUND OF THE INVENTION
The invention relates to a filter, in particular an air filter, comprising a housing and a filter element with a filter medium which filter element is arranged in the housing. In the area of an end face the housing is provided with a releasable lid by means of which the housing can be opened or closed.
In U.S. Pat. No. 5,547,480 an air filter is disclosed that comprises a cylindrical housing in which a filter element is arranged. The cylindrical wall of the housing has an air intake socket that opens into an annular chamber surrounding the filter element. One end face of the housing is provided with an air outlet socket that is in communication with the interior that is formed within the filter element. At the other end face of the housing there is a removable lid that is securable by means of clamp-like brackets on the cylindrical housing part. By releasing the brackets and removing the lid, the filter element can be removed and replaced with a new filter element. The filter element is comprised of a drum-shaped filter medium provided at its end faces with terminal disks that rest fluid-tightly against end faces of the housing or the lid.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a filter of the aforementioned kind with which the change of the filter element can be performed in a simple and safe way.
In accordance with the present invention, this is achieved in that the releasable lid and the filter element together form a common (unitary) component and in that the lid is designed as a terminal disk of the filter element.
Because the releasable lid and the filter element form a common or unitary component and at the same time the releasable lid is designed as a terminal disk of the filter element, the filter element is removed when the lid is removed so that only a single handling step is required. When inserting a new filter element, the lid is already provided on the filter element so that when the filter element is completely inserted into the housing the housing is already fluid-tightly closed. This simplifies not only the assembly but also assembly errors are prevented.
According to an expedient embodiment of the invention the lid that provides the terminal disk of the filter element is glued to the end face of the filter medium. In this way, a fluid-tight connection of the filter medium and the lid is provided. Moreover, it is advantageous that the lid has an axial socket that is received in a tubular section of a housing part and is sealed relative to it. This not only provides a safe securing action but at the same time also a sealing action relative to the housing part. In this connection it is advantageous that as a seal two annular beads are provided on the outer wall of the socket so that no additional sealing elements are required. In order to provide a defined position of the lid in the axial direction it is proposed that the lid comprises a radially outwardly oriented circumferential collar that rests against an end face of the housing.
According to a further embodiment of the present invention, the filter element has a substantially cylindrical support grid on which the filter medium is concentrically arranged. The support grid has the advantage that the filter medium in the radial direction as well as in the axial direction retains its shape precisely. It is furthermore advantageous that the support grid is dosed at the end neighboring the lid and forms part of the lid. This is achieved in that the part of the lid forming the terminal disk is designed as an annular element with a central opening and the closed end of the support grid fills out this opening. In this way it is possible to push the filter medium onto the support grid before joining the annular element and the support grid, to then place the annular element onto the end of the support grid, and to then provide a fixed (non-detachable) connection between the lid and the filter element by applying a suitable connecting means.
According to a further embodiment of the invention, within the support grid a safety element is arranged that is secured in a seal-tight way on an outlet socket. In this way it is prevented that through the outlet socket dirt can penetrate into the closed system when the filter element is damaged or is being exchanged. The safety element is comprised preferably of a further support grid and a further filter medium covering it. For facilitating manipulation when removing a soiled filter element and inserting a new filter element it is proposed that the lid is provided on its outer side with an arrangement for improved force introduction with regard to releasing or attaching the component.
While an air inlet socket is arranged at the outer surface of the housing, the outlet socket is expediently provided on the end face of the end of the housing facing away from lid an outlet socket and is concentrically arranged relative to the longitudinal axis of the housing. This outlet socket has advantageously an axially inwardly oriented section provided with an outer thread. This has the advantage that the filter element can be screwed onto the outer thread of the outlet socket when on the end of the support grid that is facing away from the lid an inner threat is provided. In this way a safe securing action for the filter element in the housing is provided.
Expediently, the support grid has at the second end facing away from the lid a radial flange that serves as a terminal disk correlated with this second end of the filter medium. The end of the filter medium is preferably connected to this terminal disk in the same way as to the annular element at the other end, i.e., preferably by an adhesive. The housing comprises expediently two, preferably however three, housing parts that are connected with one another in the area of their respective radial dividing planes. In this connection, it is possible to connect the housing parts mechanically with one another, in particular by a snap-on, locking or screwing connection. Such connections are releasable so that also the housing parts, as needed, can be detached from one another. In case that the housing parts are to be connected permanently to one another, i.e., they are non-releasable or non-detachable, the housing parts are preferably connected by welding or gluing with one another.
BRIEF DESCRIPTION OF THE DRAWING
FIG. 1 is a perspective illustration of an air filter with closure lid.
FIG. 2 is a view of the longitudinal side of the air filter housing.
FIG. 3 is a longitudinal section of the air filter.
FIG. 4 is a detail view of a section of a safety element.
FIG. 5 is an illustration of the detail V of FIG. 3.
FIG. 6 shows the air filter housing according to FIG. 2 with a filter insert located outside of the housing.
FIG. 7 is a perspective illustration of the air filter according to FIG. 6.
DESCRIPTION OF PREFERRED EMBODIMENTS
FIG. 1 illustrates an air filter 1 that has a housing 5 comprised of three housing parts 2, 3, 4. On the housing part 2 an air inlet socket 6 is formed through which the airstream to be purified enters the housing 5. At the central housing part 3 a flange 7 is provided that serves for attaching the air filter 1. The housing part 4 has at its outer wall surface a vacuum socket 8 through which dust particles can be removed. The end face of the housing part 4 is closed off by a lid 9 on which a grip element 10 is provided. The grip element 10 has a substantially star-shaped outer contour and is provided centrally with a hexagon socket 11 provided for receiving a matching tool. The grip element 10 is thus an arrangement that serves for improving force introduction for turning the lid 9 by hand or by a tool.
FIG. 2 shows a view of the longitudinal side of the air filter 1 wherein L indicates the longitudinal axis of the housing 5. The housing 5 is comprised of the housing parts 2, 3, 4 with the air inlet socket 6, the flange 7, the vacuum socket 8 and the lid 9 with grip element 10. Moreover, this illustration shows an outlet socket 12 that is arranged concentrically to the longitudinal axis L.
FIG. 3 shows a longitudinal section of the air filter 1 with the housing 5 comprised of the housing parts 2, 3, 4. The housing parts 2, 3, 4 have at their contacting surfaces radial dividing planes T1 and T2. Adjacent to these dividing planes T1 and T2 the housing parts 2, 3, 4 are provided with locking devices 13, 14 so that the housing parts 2, 3, and 4 can be mounted in a simple way. Since the locking devices 13, 14 extend about the circumference of the housing 5 and have mutually overlapping sections 16, 17 and 18, 19, this also provides fluid tightness of the housing 5.
On the housing part 2 an end wall 20 is formed that extends radially to the outlet socket 12 that is provided on the inner side of the end wall 20 with a section 21 projecting into the housing 5 and having an outer thread 22. Along the end wall 20 there is a radial channel 25 with a connecting opening 26 for connecting a pressure gauge (not illustrated). The housing part 4 has at its end face 23 an opening formed by an axial tubular section 24 that extends from the end face 23 coaxially to the longitudinal axis L into the housing 5.
In the housing 5 there is a filter element 15 which is essentially comprised of a filter medium 27 arranged on the support grid 28. The support grid 28 has at the end arranged within the tubular section 24 a closed end wall 29 that is positioned within an opening of an annular element 30 and that fills the annular element completely. The annular element 30 and the end wall 29 form together the lid 9 illustrated in FIG. 1. The annular element 30 also forms a terminal disk 30′ of the filter element 15 and is fixedly connected to the filter medium 27 by an adhesive layer 31 and is sealed relative to it and the support grid 28. The annular element 30 has an axial section 32 that is secured in the tubular section 24 and is provided on its outer side with a circumferential collar 33 that rests against a surface 34 of the end face 23 of the housing 5.
At the end of the filter element 15 that is facing away from the lid 9 a radial flange 35 is arranged on the support grid 28which serves as a terminal disk 35′ that is connected with the filter medium 27 also by an adhesive layer 36. The section of the support grid 28 neighboring the flange 35 is provided with an inner thread 37 so that the support grid 28 for securing the filter element 15 in the housing 5 can be screwed onto the thread 22. In the illustrated end position the lid 9 closes off the end face 23 located at the other end of the housing 5. FIG. 3 shows also that a coaxial cylindrical wall 38 is present within the housing part 2 by means of which the air stream entering through the air inlet socket is deflected so that the filter medium 27 is loaded uniformly with air across the entire length of the annular chamber 39 that surrounds the filter medium 27. Within the support grid 28 there is a safety element 43 with a further support grid 40 that is secured frictionally in the outlet socket 12.
In FIG. 4 a section of the safety element 43 is shown in detail. The support grid 40 is provided on its outer surface with a filter medium 46 that is comprised of a thin material. It extends almost across the entire length of the support grid 40; only the area for attachment in the outlet socket 12 is spared. An annular groove 45 with a seal ring 44 is provided at this location for sealing the outlet socket 12. A thread 47 (only one turn is shown) is provided for attachment. The filter medium is glued on or welded on, for example, by ultrasound.
FIG. 5 shows the detail V of FIG. 3 at a larger scale. This illustration shows that in the housing part 4 the tubular section 24 is formed in which the axial section 32 of the annular element 30 is provided that is a component of the lid 9. The annular element 30 forms the terminal disk 30′ for the filter medium 27 that is connected to the terminal disk 30′ by an adhesive layer 31. On the outer surface of the axial section 32 there are two annular beads 41, 42 that rest against the inner wall of the tubular section 24 and in this way provide two axial seals at an axial spacing relative to one another. At the end face of the housing part 4 a surface 34 is provided against which the collar 33 of the annular element 30 rests.
FIG. 6 shows to the left the housing 5 according to the illustration in Fig. wherein same parts are identified by same reference numerals as in the afore described Figures. To the right in FIG. 5 the filter element 15 is illustrated in a position removed from the housing 5 or before being inserted into the housing 5. The filter element 15 is provided at one end with the lid 9 on which the grip element 10 is arranged. On the lid 9 an axial section 32 is integrally formed and provided with the annular beads 41 and 42. At the end of the filter element there is flange 35 that is connected to the filter medium 27. The filter element 15 and the lid 9 together form a unit so that for removing the filter element 15 from the housing 5 or for inserting it into the housing it is only necessary to handle a single component.
FIG. 7 shows a perspective illustration of the housing 5 with removed filter element 15. In the opening at the end face of the housing part 4 the forward end of the safety element 43 can be seen. When exchanging the filter element 15 the safety element 43 remains in its mounted position and covers thus the outlet socket on the housing part 2 in order to prevent penetration of dirt into the connected system. In the case of an installed but damaged filter element 15 the safety element 43 fulfills also such a function.
The specification incorporates by reference the entire disclosure of German priority document 20 2007 006 769.0 having a filing date of May 8, 2007.
While specific embodiments of the invention have been shown and described in detail to illustrate the inventive principles, it will be understood that the invention may be embodied otherwise without departing from such principles.